US5887224A - Image forming device with improved mixing of circulated developer with replensihed toner - Google Patents

Image forming device with improved mixing of circulated developer with replensihed toner Download PDF

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Publication number
US5887224A
US5887224A US08/862,695 US86269597A US5887224A US 5887224 A US5887224 A US 5887224A US 86269597 A US86269597 A US 86269597A US 5887224 A US5887224 A US 5887224A
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United States
Prior art keywords
toner
developer
conveying
conveying member
stirring
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US08/862,695
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English (en)
Inventor
Haruji Mizuishi
Masaru Tanaka
Shigeru Watanabe
Kenzo Tatsumi
Toshitaka Yamaguchi
Takeo Suda
Hiroshi Yoshinaga
Ken Amemiya
Mayumi Yoshida
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Ricoh Co Ltd
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Ricoh Co Ltd
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Assigned to RICOH COMPANY, LTD. reassignment RICOH COMPANY, LTD. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: MIZUISHI, HARUJI, SUDA, TAKEO, TANAKA, MASARU, TATSUMI, KENZO, YAMAGUCHI, TOSHITAKA, YOSHIDA, MAYUMI, AMEMIYA, KEN, WATANABE, SHIGERU, YOSHINAGA, HIROSHI
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G15/00Apparatus for electrographic processes using a charge pattern
    • G03G15/06Apparatus for electrographic processes using a charge pattern for developing
    • G03G15/08Apparatus for electrographic processes using a charge pattern for developing using a solid developer, e.g. powder developer
    • G03G15/0822Arrangements for preparing, mixing, supplying or dispensing developer
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G21/00Arrangements not provided for by groups G03G13/00 - G03G19/00, e.g. cleaning, elimination of residual charge
    • G03G21/10Collecting or recycling waste developer
    • G03G21/105Arrangements for conveying toner waste
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G2215/00Apparatus for electrophotographic processes
    • G03G2215/08Details of powder developing device not concerning the development directly
    • G03G2215/0802Arrangements for agitating or circulating developer material
    • G03G2215/0816Agitator type
    • G03G2215/0819Agitator type two or more agitators
    • G03G2215/0822Agitator type two or more agitators with wall or blade between agitators

Definitions

  • This invention relates to an image forming device such as a copying machine, a printer or a facsimile and, more particularly, to an image forming device using a developer with two components.
  • a related image forming device such as a copying machine, a printer or a facsimile, includes a developer stirring and conveying member for stirring and conveying a two-component developer to a developing sleeve developing an electrostatic latent image formed on a photosensitive body; a new toner replenishing member for replenishing new toner to a toner conveying member provided through a toner conveying path that communicates with a developer stirring and conveying path of the developer stirring and conveying member; and a recovered toner conveying member for conveying recovered toner, removed from the photosensitive body, to the toner conveying member for use as recycle toner.
  • the developer stirring and conveying member includes a first developer stirring and conveying member positioned along and substantially in parallel to the developing sleeve and a second developer stirring and conveying member positioned substantially in parallel to the first developer stirring and conveying member. These members are designed to convey the developer in directions which are different from each other.
  • a partition is provided between the first developer stirring and conveying member and the second developer stirring and conveying member.
  • Developer receiving portions are formed at front and back sides of the partition, respectively, so that the conveyed developer can be circulated through the developer receiving portions.
  • the developer is conveyed in this circulatory system while substantially maintaining a constant speed even in the developer receiving portions on purpose to prevent the developer from accumulating or decreasing at the ends of each developer stirring and conveying member.
  • first and second developer stirring and conveying members convey the developer at different speeds, e.g., when the conveying speed of the first developer stirring and conveying member is slower than that of the second developer stirring and conveying member, there exists no developer (especially no carrier) in the leading portion of the second developer stirring and conveying member; and only the replenished toner and the recycle toner are conveyed to the second developer stirring and conveying member. This may cause a toner concentration detecting sensor to make an error in detection.
  • the first developer stirring and conveying member and the second developer stirring and conveying member are each constructed by an elliptic fin member having a plurality of fins each formed by notching part of an elliptic plate and slantingly arranged, mainly aiming at stirring of the developer.
  • This type of image forming device is required to stir the developer enough to charge the toner to a predetermined potential before development on purpose to prevent the occurrence of an uneven density of an image caused by insufficient mixing of the toner with the carrier of the developer; and further, to prevent the occurrence of smudges on the background of the image due to insufficient charge of the toner.
  • the first developer stirring and conveying member and the second developer stirring and conveying member are required to convey the developer at a relatively low speed so that the developer can be stirred enough to charge the toner.
  • these members are each constructed by an elliptic fin member having a plurality of fins each formed by notching part of an elliptic plate and slantingly arranged.
  • the toner conveying path communicates with the second developer stirring and conveying member, and the toner conveying member provided through the toner conveying path is formed into a screw-like shape.
  • Re-use of the toner recovered from the photosensitive body as recycle toner allows a reduction in the number of times new toner is replenished.
  • This is particularly effective in a compact image forming device employing such a device called a process cartridge or a photosensitive unit, in which image forming units such as a developing unit and a cleaning station arranged around the photosensitive body are unitarily formed with the photosensitive body, and which therefore is incapable of making the storage capacity of the developer and replenishing toner large.
  • the recycle toner is, however, used and recovered toner that has been removed from the surface of the photosensitive body, and is fairly condensed compared to the new toner because the recovered toner is circulated and conveyed in the condition that it is pushed into the toner conveying means by the recovered toner circulating and conveying means. It is therefore difficult to mix such condensed recycle toner with the carrier of the two-component developer, and further, it is difficult to charge the recycle toner. For this reason, the reuse of the condensed recovered-toner as the recycle toner causes insufficient dispersion of the toner into the developer and hence uneven or unstable charge of the toner. Therefore a problem arises that smudges on the background of an image occur. Such tendency is remarkable in a compact image forming device employing the process cartridge or the photosensitive body unit, because it is incapable of making the developer stirring and conveying path long due to its construction.
  • the toner replenished from a toner replenisher is fed to the second developer stirring and conveying member through the toner conveying member provided separately from the second developer stirring and conveying member.
  • the developer near one of the developer receiving portions that communicates with the downstream of the developer circulating path of the first developer stirring and conveying member is relatively heavy with a large amount of carrier due to toner consumption, the developer is accumulated near the developer receiving portion in the conventional image forming devices. This may cause a backflow of the developer into the toner replenishing path or a slowdown in dispersing the toner into the developer after being fed to the second developer stirring and conveying member.
  • the toner concentration in a toner concentration detecting position reaches a reference value very slowly even after a required amount of toner has been replenished. This causes excess toner replenishment and therefore the same problem arises that smudges on the background of an image occur. The problem is remarkable in a compact image forming device.
  • a first developer stirring and conveying member 101 conveys the developer G to a second developer stirring and conveying member 104 (only a toner conveying member 102 is shown in the drawing) provided at the right side of the first developer stirring and conveying member 101 when viewed from the drawing.
  • the first developer stirring and conveying member 101 rotates in a counterclockwise direction.
  • the second developer stirring and conveying member 104 also rotates in a counterclockwise direction to stir and convey the toner Tn and the developer G toward the back side of the plane of the drawing.
  • the toner Tn replenished to the toner conveying member 102 is accumulated by gravity on a casing 103 and at the lower side of the toner conveying member 102. As shown in FIG. 27, the accumulated toner Tn is slid on the upper surface of the casing 103 and sent to the developer receiving portion as a screw vane 102a rotates in the lower portion of the toner conveying member 102. On the other hand, the developer G sent from the first stirring and conveying member 101 to the second stirring and conveying member 104 is fed along the casing 103 with a flat plane to the lower portion of the toner conveying member 102, as shown by an arrow 106 in FIG. 27, where the toner Tn is accumulated. The developer G is thus delivered from the first stirring and conveying member 101 to the second stirring and conveying member 104 through the developer receiving portion in FIG. 27 so that the developer G will join the toner Tn in the developer receiving portion.
  • the first stirring and conveying member 101 rotates to feed the developer G, having a weight which is heavier than the toner Tn, along the plane of the casing 103 into the lower portion of the second stirring and conveying member 104 as shown by the arrow 106. Since the toner Tn which is lighter in weight than the developer G is pushed up by the developer G, it is difficult to disperse the toner Tn into the developer G, and hence it is difficult to cause friction between the toner Tn and the carrier included in the conveyed developer G so as to charge the toner Tn. The use of the toner insufficiently charged for development causes defective development such as smudges on the background of an image. If toner is replenished with the toner concentration detected from the toner that has not yet been charged enough with friction, proper toner concentration cannot be obtained.
  • the replenished toner is fed from the upper side of the end of the second developer stirring and conveying member through a toner replenishing port.
  • the replenished toner falls on the screw vane. Since the developer stirring and conveying member generally rotates at a speed of 200 rpm or higher and the toner consists of micro-particles of 3 to 12 ⁇ m, some particles of the replenished toner cannot fall from the toner replenishing port to the lower side, and may be scattered and suspended in the air or moved on the surface of the developer without being mixed and stirred with the developer, particularly with the carrier.
  • Such toner directly arrives at the developing sleeve and the developer around the developing sleeve without being charged or with weak charging and causes smudges on the background of an image. Such scattering of the toner also causes stains in the device.
  • the developer stirring and conveying direction is typically limited to the axial direction of the developer stirring and conveying member, and the location of the toner concentration detecting means (see Japanese patent published application No. 63-28305 or Japanese patent laid-open application No. 58-55952) for detecting toner concentration is also restricted. Therefore, in such an image forming device, the toner concentration in the developer differs depending upon the positions within the developing unit and the detecting result of detecting toner concentration depends on the position where the toner concentration detecting means is positioned within the developing unit. Also, the bulk of the developer is changed within the developing unit depending on the toner replenishment timing and the amount of replenished toner.
  • the deviation of the toner concentration in the developer within the developing unit causes uneven density of the image, and it further causes smudges on the background of the developed image depending upon the toner replenishment timing and the amount of replenished toner. It may further cause an overflow of the toner excessively replenished depending on the toner replenishment timing and the amount of replenished toner.
  • An easy and typical way to solve the above problems is to extend the length of the developing casing or the partition.
  • Such an approach to the conventional problems allows a prevention of the movement of the scattered or floating toner particles, but on the other hand could resist the movement of the developer.
  • the approach is also insufficient for responding to a change in level of the developer surface caused when toner has been replenished.
  • an object of the present invention is to provide an image forming device capable of preventing smudges on the background of an image due to a failure in mixing and stirring developer and toner enough to charge the toner or a scattering of the toner without being charged.
  • a first aspect of the present invention provides an image forming device having a developer stirring and conveying member for stirring and conveying developer to a developer carrier developing an electrostatic latent image on an image carrier; a toner conveying member provided through a toner conveying path for conveying toner to a developer stirring and conveying path of the developer stirring and conveying member that communicates with the toner conveying path; a new toner replenishing member for replenishing new toner to the toner conveying member; and a recovered toner conveying member for conveying toner, recovered from the surface of the image carrier, to the toner conveying member, wherein the recovered toner is conveyed upstream of a new toner replenishing portion of the toner conveying path.
  • a second aspect of the present invention is based on the first aspect of the present invention, wherein the conveying speed of the toner conveying member is set higher than that of the developer stirring and conveying member.
  • a third aspect of the present invention provides an image forming device having a developer stirring and conveying member for stirring and conveying developer to a developer carrier developing an electrostatic latent image on an image carrier; a toner conveying member provided through a toner conveying path for conveying toner to a developer stirring and conveying path of the developer stirring and conveying member that communicates with the toner conveying path; and a toner replenishing member for replenishing toner to the toner conveying member, wherein the developer located at the lowermost-stream side of the developer stirring and conveying member is conveyed downstream of a toner replenishing portion of the toner conveying path so that the developer will be circulated.
  • a fourth aspect of the present invention is based on the third aspect of the present invention, wherein the conveying speed of the toner conveying member is set higher than that of the developer stirring and conveying member.
  • a fifth aspect of the present invention is based on the third aspect of the present invention, wherein a chevron-like protrusion is formed on the bottom of a developer conveying portion located at the lowermost-stream side of the developer stirring and conveying member so that the developer will be conveyed from the upside of the toner conveying path.
  • a sixth aspect of the present invention is based on the third aspect of the present invention, wherein a toner receiving portion of the toner conveying member for receiving toner replenished from the toner replenishing portion is provided in a position deviated from the rotation axis of the toner conveying member.
  • a seventh aspect of the present invention is based on the sixth aspect of the present invention, wherein the toner receiving portion of the toner conveying member rotates in the same direction as the toner is replenished from the toner replenishing portion.
  • An eighth aspect of the present invention is based on the third aspect of the present invention, wherein the developer conveying portion located at the lowermost-stream side of the developer stirring and conveying member and the toner receiving portion of the toner conveying member are formed at opposite sides with respect to the rotation axis of the toner conveying member.
  • a ninth aspect of the present invention provides an image forming device having a developer stirring and conveying member which is provided with a developer receiving portion for receiving circulated developer and a toner replenishing portion for receiving replenished toner, the toner replenishing portion being located outside of the developer receiving portion in the axial direction of the developer stirring and conveying member, wherein the developer stirring and conveying member receives developer from the upside thereof through the developer receiving portion and toner from the downside thereof through the toner replenishing portion, and a toner concentration detecting unit is put in a position in which the developer and the toner are mixed well by the developer stirring and conveying member.
  • a tenth aspect of the present invention is based on the ninth aspect of the present invention, wherein when the developer stirring and conveying member for receiving developer is used as a second developer stirring and conveying member, a first developer stirring and conveying member is provided in the lateral direction of the second developer stirring and conveying member such that the first and second developer stirring and conveying members stand side by side, the developer being delivered from the first developer stirring and conveying member to the second developer stirring and conveying member through the developer receiving portion while rotating the first developer stirring and conveying member in a direction in which the developer is scraped up and fed to the second developer stirring and conveying member, with a portion of a lower casing between the first developer stirring and conveying member and the second developer stirring and conveying member being formed into a chevron-like shape corresponding to a locus of rotation of the first developer stirring and conveying member and the second developer stirring and conveying member.
  • An eleventh aspect of the present invention provides an image forming device having a developer stirring and conveying member which is provided with a developer receiving portion for receiving circulated developer and a toner replenishing portion for receiving replenished toner, the toner replenishing portion being located outside of the developer receiving portion in the axial direction of the developer stirring and conveying member, wherein the developer stirring and conveying member receives developer from the upside through the developer receiving portion and toner from the downside through the toner replenishing portion, and a toner concentration detecting unit is positioned off the lower side of said developer stirring and conveying member as viewed from the axial direction of the developer stirring and conveying member.
  • a twelfth aspect of the present invention provides an image forming device having a developer carrier, a plurality of developer stirring and conveying members arranged horizontally along the developer carrier, a partition provided between the developer stirring and conveying members, connecting passages provided at both ends of the partition so that the developer can turn back therethrough, and toner replenishing means for replenishing toner from the end portion of one of the developer stirring and conveying members, in which an electrostatic latent image formed on an image carrier is made visible with a two-component developer including toner and carrier to form a developed image, wherein a scattering prevention member is provided above one of the developer stirring and conveying members located farthest away from the developer carrier and along the axial direction of the developer stirring and conveying member so that toner particles scattered when replenishing the toner cannot directly arrive at the developer carrier or the developer around the developer carrier.
  • a thirteenth aspect of the present invention is based on the twelfth aspect of the present invention, wherein the scattering prevention member is positioned on the side of the partition with respect to the rotation axis of the developer stirring and conveying member that is the farthest one from the developer carrier of all the developer stirring and conveying members.
  • a fourteenth aspect of the present invention is based on the twelfth or thirteenth aspects of the present invention, wherein the upper end of the partition is located in a position higher than the lower end of the scattering prevention member.
  • a fifteenth aspect of the present invention is based on the twelfth, thirteenth or fourteenth aspects of the present invention, wherein the upper end of the partition is such that the toner replenishing side is higher than the other side.
  • a sixteenth aspect of the present invention is based on the twelfth, thirteenth, fourteenth or fifteenth aspects of the present invention, wherein the lower end of the scattering prevention member is such that the toner replenishing side is lower than the other side.
  • FIG. 1 is a perspective view showing the outside of the main parts of an image forming device according to an embodiment of the present invention
  • FIG. 2 is a perspective view showing the outside of the main parts of the image forming device according to the embodiment, where a developer case is removed;
  • FIG. 3 is a perspective view showing an internal arrangement of the main parts of the image forming device according to the embodiment, where an upper case is removed;
  • FIG. 4 is a schematic sectional view showing the internal arrangement of the main parts of the image forming device according to the embodiment
  • FIG. 5 is a plan view showing the internal arrangement of the main parts of the image forming device according to the embodiment, where the upper case is removed;
  • FIG. 6 is a perspective view of the main parts of a toner conveying member unitarily formed with a developer stirring and conveying member according to the embodiment, which shows the positional relationship between a new toner replenishing portion and a recycle toner receiving portion;
  • FIG. 7 is a schematic sectional view of the toner conveying member unitarily formed with the developer stirring and conveying member according to the embodiment, which shows the positional relationship between the new toner replenishing portion and the recycle toner receiving portion;
  • FIG. 8(a) is a schematic perspective view showing conveying states of recycle toner in a conventional image forming device
  • FIG. 8(b) is a schematic perspective view showing conveying states of recycle toner in the embodiment of the present invention.
  • FIG. 9 is a sectional view of the toner conveying member unitarily formed with the developer stirring and conveying member according to the embodiment, which shows the positional relationship between a developer receiving portion and a toner replenishing portion;
  • FIG. 10(a) is a sectional view showing a structure of a developer receiving portion according to another embodiment of the present invention, where a screw member as a toner delivering member rotates in a counter-clockwise direction;
  • FIG. 10(b) is a sectional view showing a structure of a developer receiving portion according to another embodiment of the present invention, where a screw member as a toner delivering member rotates in a clockwise direction;
  • FIG. 11(a) is a sectional view showing a structure of a toner replenishing portion according to another embodiment of the present invention, where a screw member as a toner delivering member rotates in a counter-clockwise direction;
  • FIG. 11(b) is a sectional view showing a structure of a toner replenishing portion according to another embodiment of the present invention, where a screw member as a toner delivering member rotates in a clockwise direction;
  • FIG. 12(a) is a sectional view showing the positional relationship between a developer receiving portion and a toner replenishing portion according to another embodiment of the present invention, where a screw member as a toner delivering member rotates in a counter-clockwise direction;
  • FIG. 12(b) is a sectional view showing the positional relationship between a developer receiving portion and a toner replenishing portion according to another embodiment of the present invention, where a screw member as a toner delivering member rotates in a clockwise direction;
  • FIG. 13 is a sectional view showing a structure of a developer receiving portion according to another embodiment of the present invention.
  • FIG. 14 is a sectional view showing a position of a toner concentration sensor
  • FIG. 15 is a sectional view showing a falling state of toner from the toner replenishing port to the toner conveying member
  • FIG. 16 is a graph showing charge characteristics of toner
  • FIG. 17 is a graph showing further charge characteristics of toner
  • FIG. 18 is graph showing detection characteristics of the toner concentration detecting sensor
  • FIG. 19 is a schematic sectional view showing the main parts of an image forming device according to another embodiment of the present invention.
  • FIG. 20 is a sectional view showing the main parts of a scattering prevention function of a partition
  • FIG. 21 is a side view showing a modification of the partition
  • FIG. 22 is a sectional view showing the main parts of a modification of a scattering prevention member
  • FIG. 23 is a sectional view showing the main parts of another modification of the scattering prevention member.
  • FIG. 24 is a sectional view showing the main parts of still another modification of the scattering prevention member
  • FIG. 25 is a side view showing a modification of the scattering prevention member
  • FIG. 26 is a sectional view showing the main parts of a modification of the partition.
  • FIG. 27 is a sectional view illustrating a related device.
  • FIG. 1 is a perspective view of a process cartridge as an example of the main parts of an embodiment of the present invention
  • FIG. 2 is a perspective view of the process cartridge showing a state where a developer case is removed
  • FIG. 3 is a perspective view of the process cartridge showing an internal arrangement where the upper case of the process cartridge is removed
  • FIG. 4 is a sectional view of the process cartridge and other parts near the cartridge, showing the internal arrangement of the process cartridge and the other parts
  • FIG. 5 is a top view of the process cartridge where the upper case of the process cartridge is removed. Since the general structure of the process cartridge in FIGS. 1 through 5 is commonly used in all the embodiments described below, the description will be made with respect to the first embodiment and omitted in the other embodiments.
  • a drum-shaped photosensitive body 1 as an image carrier is discharged with a discharging light beam 21 so that the potential on the surface will be leveled off to a reference potential of 0 to -150 V. Then the photosensitive body 1 is charged by a charging roller 2a of a charging unit 2 to a surface potential of -1100 V or so. The photosensitive body 1 is exposed to a light beam 15 of an image by an exposure means, not shown, so that the surface potential of a portion, that is, an image portion, where the light beam is irradiated will be leveled to 0 to -290 V.
  • a developing sleeve 3a as a developer carrier of a developing unit 3 is being biased to -800 V or so, toner particles on the developing sleeve 3a adhere to the image portion (electrostatic latent image) on the photosensitive body 1 to form the electrostatic latent image into a toner image.
  • the photosensitive body 1 on which the toner image is formed is rotated, while a sheet of transfer paper 13 fed by a paper feeder, not shown, is conveyed by a resist roller 14 at such timing so that the leading end of the transfer paper meets the top of the image in a position of a transfer roller 5a of a transfer and separation unit 5.
  • the toner image on the photosensitive body 1 is thus transferred to the transfer paper 13.
  • the transfer paper 13 with the transferred toner image is then sent to a fixing unit, not shown, in which the toner image is melted and fixed on the transfer paper 13 by fixing means applying heat and pressure, and the transfer paper 13 is ejected as a copy to a copy receiving tray provided outside of the machine.
  • the toner remaining on the photosensitive body 1 without being transferred to the transfer paper 13 is scraped off by a cleaning blade 6a of a cleaning unit 6 to initialize the photosensitive body 1 for the next image forming process.
  • the photosensitive body 1, the charging unit 2, the developing unit 3 and the cleaning unit 6 are mounted within a cartridge case 11 of the process cartridge unitarily formed by surrounding the photosensitive body 1.
  • the cartridge case 11 includes an upper case 11a and a lower case 11b.
  • the recovered toner that has been removed from the surface of the photosensitive body 1 by the cleaning unit 6 is sent by a toner conveying coil 6b to a recycle toner conveying section 11c formed at the front side of the cartridge case 11, then conveyed to a developer stirring portion 11d of the cartridge case 11 by a recycle belt 12 as a recovered toner conveying member provided in the recycle toner conveying section 11c, so that the recovered toner will be reused as recycle toner.
  • recycle toner conveying section 11c is unitarily formed with the cartridge case 11, one does not have to worry about leakage of the toner at the process cartridge in the joint therebetween such as may occur when being formed separately from each other, and therefore any optional element such as a sponge does not need to be provided for preventing leakage of the toner. Further, since sections for arranging respective units are also formed as a body, each unit can be easily incorporated.
  • the charging roller 2a of the charging unit 2 is constructed by wrapping conductive rubber around the outer surface of a metallic core, and is put in contact with the photosensitive body 1 when charging the photosensitive body 1.
  • the charging roller 2a may damage the photosensitive body 1 to cause an abnormal image when it is left in contact with the photosensitive body 1 for a long time after the device has stopped. Therefore, the charging unit 2a is designed to separate from the photosensitive body when the device stops.
  • the charging roller 2a can cause uneven charge on the photosensitive body 1 because the charging roller 2a remains in contact with the photosensitive body 1 while charging the photosensitive body 1 and micro-particles of toner foul the surface thereof.
  • a cleaning pad 2b for cleaning the surface of the charging roller 2a is attached to the charging unit 2 as shown in FIG. 4.
  • a contact and separation mechanism for the charging roller 2a is held by a charging roller case 2c through a bearing, not shown.
  • the bearing is movably attached to the charging roller case 2c so that the charging roller 2a will be pressed on the photosensitive body 1 by a compression spring, not shown, while maintaining a given pressure.
  • the charging roller case 2c is pushed up by a compression spring, not shown, so that the cleaning pad 2b and the charging roller 2a will be lifted up together to separate the charging roller 2a from the photosensitive body 1.
  • the position of the charging roller 2a of all three positions i.e., the operating position in which the charging roller 2a contacts and charges the photosensitive body 1, the cleaning position in which the charging roller case 2c is pushed down and the cleaning pad 2b contacts the charging roller 2a or the separate position in which the charging roller case 2c is pushed up and the charging roller 2a separates from the photosensitive body 1, is determined by the operating position of a charging roller contacting and separating arm, not shown. Then the operating position of the charging roller contacting and separating arm is determined by a contact and separation cam, not shown.
  • the contact and separation cam is unitarily attached to a rotating shaft of an electromagnetic clutch, not shown, such that the contact and separation cam rotates 120 degrees each time the electromagnetic clutch rotates 120 degrees.
  • Such rotation of the contact and separation cam makes it possible to move the charging roller 2a to the above three positions.
  • the use of such a charging roller 2a allows a reduction in the amount of produced ozone to 1/100 to 1/1000 compared to a case where a conventional corona charger is used. Accordingly, a member for ozone treatment does not need to be provided.
  • a two-component developer made of a mixture of toner particles and carrier of small iron balls is stored within the developing casing of the developing unit 3 unitarily formed with the lower case 11b.
  • a first developer stirring and conveying member 3c and a second developer stirring and conveying member 3d arranged along the developing sleeve 3a circulate the stored developer in the developing casing while stirring to convey it to the developing sleeve 3a.
  • a doctor blade 3b as a developer control member is provided close to the outer surface of the developing sleeve 3a for controlling the thickness of the developer on the developing sleeve 3a.
  • the doctor blade 3b is adjustable in the line normal to the developing sleeve 3a.
  • a mechanism for controlling the rotating direction of a magnet inserted into the developing sleeve 3a and a supporting member for adjustably supporting the doctor blade 3b are provided at one end of the developing sleeve 3a.
  • a bearing mechanism for bearing the rotation of the developing sleeve 3a and a supporting member with a bearing fitted thereinto under pressure for adjustably supporting the doctor blade 3b are also provided at the other end of the developing sleeve 3a.
  • the doctor blade 3b is moved along the normal line of the developing sleeve 3a by adjusting the above supporting members so that a gap between the doctor blade 3b and the developing blade 3a and hence the thickness of the developer on the developing sleeve will be controlled.
  • the gap between the doctor blade 3b and the developing sleeve 3a can be controllable from the outside of the developing unit 3.
  • a portion of the outer surface of the developing sleeve 3a that faces the photosensitive body 1 is exposed from the developing casing.
  • An unillustrated entrance seal made of Mylar or the like, is provided along the longitudinal direction of the exposed portion and upstream in the rotating direction of the developing sleeve 3a for preventing toner particles from scattering to the outside of the developing casing.
  • Side seals are also provided at front and back ends of the exposed portion, respectively, for preventing toner particles from scattering through the ends.
  • the developing sleeve 3a is formed into a rotatable aluminum cylinder having a diameter of 16 to 20 mm.
  • the cylinder has a flat surface, or a wave-like surface with V-shaped grooves or the like for carrying more developer.
  • Five magnets are so arranged in the developing sleeve 3a so that they never rotate along the circumferential direction of the internal surface and a given distribution of magnetic force appears in the normal direction.
  • the transfer roller 5a of the transfer and separation unit 5 is formed by wrapping conductive resin on a metallic core and is pressed by an unillustrated compression spring against the photosensitive body 1 together with its bearing.
  • the transfer roller 5a is supplied with constant current to transfer a toner image on the photosensitive body 1 to the transfer paper 13.
  • the transfer roller 5a is able to move into contact with or away from the photosensitive body 1 in the same manner as the charging roller 2a.
  • a discharge needle 5b is also arranged at the lower stream side of the transfer roller 5a.
  • the discharge needle 5b is made of a thin metallic plate and the tip thereof directed to the photosensitive body 1 is formed into a sharp and pointed saw-tooth like shape.
  • the discharge needle 5b is applied with a voltage from a power source, not shown, to remove electrostatic charge from the transfer paper 13 on purpose to assist separation of the transfer paper 13 from the photosensitive body 1.
  • a developer case 9 is provided to the upper case 11a of the cartridge case 11.
  • the developer case 9 is removably attached to the upper case 11a of the cartridge case 11 and, as shown in FIGS. 2 and 4, the upper case 11a is provided with a developer intake port 3f in a position where the developer case 9 is attached to the upper case 11a.
  • An opening is also provided in the lower portion of the developer case 9.
  • the opening of the developer case 9 is sealed with a seal material, not shown, when the developer case 9 is assembled, after storing a given amount of premixed developer (where toner and carrier are premixed in a given ratio) into the developer case 9.
  • the seal material is to prevent the developer enclosed within the developer case 9 from falling into the developing unit 3 during shipment and delivery, and from coagulating due to moisture absorption while the process cartridge is being stored before shipment. The seal material is removed from the opening in use of the process cartridge.
  • the developer case 9 is set in the upper case 11a of the process cartridge body in the condition that the opening is sealed with the seal material. Then the seal material is removed from the opening manually or automatically to release the opening of the developer case 9 on condition that the developer case 9 has been set in the process cartridge body. The developer enclosed within the developer case 9 falls under gravity and fills the developing unit 3 therewith to set the developing unit 3 to an initial state where development can start.
  • the cleaning blade 6a of the cleaning unit 6 is made of a polyurethane rubber flat plate and fixed to a metallic blade holder 6c with adhesive or double-sided tape.
  • the blade holder 6c is put in a position parallel to an inclined plane of a case part formed around the photosensitive body 1 under control of two positioning pins provided on the inclined plane, and fixed to the case part around the photosensitive body by fastening screws in a direction opposite to the rotating direction of the photosensitive body 1, i.e., in a counter direction.
  • the screws are so positioned to the sticking surface of the cleaning blade 6a that the blade holder 6c is brought into full contact with the inclined plane of the case part formed around the photosensitive body and inclined along the inclined plane.
  • the vertical direction of the cleaning blade 6a is controlled to the inclined plane.
  • the thrust positions of the screws are preferably put externally from both ends including a flange of the photosensitive body 1 on purpose to replace only the cleaning blade 6a without removing the photosensitive body 1.
  • the recovered toner that is scraped from the photosensitive body 1 by the cleaning blade 6a is conveyed to the front side (left side in FIG. 5) of the cartridge case 11 by the toner conveying screw 6b of the cleaning unit 6.
  • the toner conveying screw 6b is provided with a gear A at the back side of the cartridge case 11, and the gear A is put in a hole D at the back side of the cartridge case 11 and engaged with a gear B unitarily formed with the flange of the photosensitive body 1 so that the rotation of the gear B driven to rotate by an external input from a drive motor or the like is transmitted thereto.
  • a gear C located at the back side of the developing sleeve 3a is driven to rotate by an external input from a drive motor or the like through a coupling 22.
  • the rotation of the gear C is transmitted through an idle gear D to a gear E located at the back side of the first developer stirring and conveying member 3c, then the rotation of the gear E is transmitted through an idle gear F to a gear H located at the back side of the second developer stirring and conveying member 3d (FIG. 3).
  • an identical driving power source is used for conveying the toner in the cleaning unit and driving the photosensitive body to rotate, both are synchronized with each other.
  • the elements of the developing unit 3 are driven by the driving power source through a clutch and this allows a changeover between driving state and non-driving state. All the elements of the developing unit 3 are driven together through respective gears.
  • first developer stirring and conveying member 3c and the second developer stirring and conveying member 3d rotate in the directions indicated by the respective arrows in FIG. 4 in the embodiment
  • rotating directions are not limited by the embodiment and both members may rotate in directions opposite to the arrows in FIG. 4, respectively, or they may rotate in the same direction, by changing the number of idle gears or rearranging the idle gears.
  • the rotating directions of the first developer stirring and conveying member 3c and the second developer stirring and conveying member 3d are set to be opposite to the arrows in FIG. 4, respectively, the inclined angle of the fins and the thread cutting direction of the screw must be set oppositely, described later in detail, to prevent the developer from circulating and conveying in the opposite direction.
  • a pin 6d is provided in front of the toner conveying screw 6b to be put into an elongated hole 12a provided on a toner recycling belt 12 as a recycle toner delivering member to drive the toner recycling belt 12.
  • the other end of the toner recycling belt 12 is supported by the belt-driven roller 12b rotatably put in a prescribed position by the lower case 11b of the developing unit 3 to give given tension to the toner recycling belt 12.
  • the recovered toner conveyed by the toner conveying screw 6b from the cleaning unit 6 passes through the elongated holes of the toner recycling belt 12 while unstably moving near the toner receiving portion for delivering the recovered toner to the recycling belt 12. Then, fins 12c provided on the toner recycling belt 12 conveys the recovered toner as recycle toner to a recycle toner receiving portion 12d through which the recycle toner is sent to a screw member 3e as a toner conveying member unitarily formed with the second developer stirring and conveying member 3d of the developing unit 3.
  • a toner concentration sensor 16 as a toner concentration detecting member, constructed by a magnetic permeability measuring sensor, for detecting the toner concentration (ratio between carrier and toner) in the developer enclosed within the developing casing.
  • a desired amount of new toner is replenished, on the basis of the detection signal from the toner concentration sensor 16, from a toner bottle 4b of a toner replenishing unit 4 as a new toner replenishing member through a toner replenishing port 4c as a toner replenishing portion to a toner replenishing portion 4a provided above the screw member 3e penetrating the toner conveying path that communicates with the developer stirring and conveying path (developer stirring portion 11d) provided in front of the developing unit 3 (see FIGS.
  • the toner concentration sensor 16 detects such toner concentration in the developer, and then, an electromagnetic clutch, not shown, of a bottle driving shaft for rotating the toner bottle 4b of the toner replenishing unit 4 is turned on by the detection signal from the toner concentration sensor 16, whereby the toner bottle 4b rotates to replenish a desired amount of toner through the toner replenishing port 4c to the toner replenishing portion 4a provided in front of the developing unit 3.
  • the toner bottle 4b has a spiral projection therein so that the toner can be sent from the back side to the toner outlet on the front side sequentially along with the rotation of the bottle driving shaft. Since the amount of toner to be discharged from the toner bottle 4b is not constant, the replenished toner is temporarily stored in a toner reservoir 4d formed in the end portion of the toner replenishing unit 4.
  • the toner reservoir 4d serves as a buffer, where the replenished toner stored in the toner reservoir 4d is replenished by a small and constant amount through small holes (with a diameter of 0.5 to 1 mm) of a Mylar 4f, provided between the toner reservoir 4d and the toner replenishing port 4c, each time a replenishing shaft of a toner replenishing Mylar 4e rotates. Then the constant amount of replenished toner is replenished from the toner replenishing port 4c to the toner replenishing portion 4a located above the screw member 3e. Specifically, about 0.6 grams of toner will be replenished into the developing unit 3 each time 10 to 15 copies of an A4 size original with an image area of 5 to 6% of A4 size are taken.
  • a partition 11e unitarily formed with the developing casing (lower case 11b) is provided between the developer circulating path of the first developer stirring and conveying member 3c and the developer circulating path of the second developer stirring and conveying member 3d, with connecting ports 11f and 11g provided at the front and back sides of the partition 11e, respectively, for use as a receiving portion between the developer circulating path of the first developer stirring and conveying member 3c and the developer circulating path of the second developer stirring and conveying member 3d.
  • the developer that has been conveyed to the back side (in the direction of arrow 26) by the second developer stirring and conveying member 3d is struck on rectangular vanes 3g provided at the back side of the second developer stirring and conveying member 3d to change its flowing direction toward a direction of an arrow 31. Then the developer is sent along the direction of the arrow 31 into the developer circulating path of the first developer stirring and conveying member 3c through the back-side connecting port 11g.
  • the developer that has been sent from the back-side connecting port 11g after being conveyed by the second developer stirring and conveying member 3d is stirred and conveyed to the front side in the direction of an arrow 29 in FIG. 5 by the first developer stirring and conveying member 3c.
  • the first developer stirring and conveying member 3c recovers or supplies developer from or to the developing sleeve 3a while stirring and conveying the developer.
  • the developer strikes rectangular vanes 3h provided at the front side of the first developer stirring and conveying member 3c and changes its flowing direction toward a direction indicated by an arrow 30. Then the developer is sent along the direction of the arrow 30 into the developer circulating path of the second developer stirring and conveying member 3d through the front-side connecting port 11f.
  • the partition 11e between the developer circulating path of the first developer stirring and conveying member 3c and the developer circulating path of the second developer stirring and conveying member 3d is so formed that a gap is kept between the partition 11e and the upper case 11a.
  • the gap between the partition 11e and the upper case 11a may cause an overflow of the developer through the gap.
  • the overflown developer is circulated through a short-circuited path, and therefore the toner concentration detected by the toner concentration sensor 16 exhibits an inaccurate value.
  • the toner concentration in the developer that is circulated in the regular path becomes uneven.
  • the height of the partition 11e is made different such that a portion 11h located in the upper stream of the toner concentration sensor 16 is higher than the other portions, as shown in FIG. 3, on purpose to prevent an overflow of the developer in the developer circulating path located in the upper stream of the toner concentration sensor 16.
  • the toner concentration sensor 16 preferably detects the toner concentration in the developer that has been supplied with replenished toner at an earlier stage. Therefore, as shown in FIGS. 1 through 5, in the embodiment the toner concentration sensor 16 is arranged in a position about 50 mm downstream of the upper-stream connecting port 11f.
  • the second developer stirring and conveying member 3d is constructed with a plurality of elliptic fins slantingly arranged, there is no elliptic fin in a section corresponding to a detecting position of the toner concentration sensor 16, as shown in FIGS. 3 and 5, on purpose to prevent a ripple of the toner concentration signal caused by rotation of the fins.
  • This makes it possible to accumulate the developer in the detecting position and hence to detect the toner concentration properly. Since such a section is provided for accumulating the developer to prevent deviation of the detection, the same results can be obtained by arranging elliptic plates smaller than the other in the section, or widening the distance between the plates.
  • the recycle toner conveyed by the recycling belt 12 to the recycle toner receiving portion 12d is the used recovered-toner that has been removed from the photosensitive body 1 by means of the cleaning blade 6a, and the recovered toner is fairly condensed compared to new toner replenished from the toner bottle 4b of the toner replenishing unit 4 to the toner replenishing portion 4a through the toner replenishing port 4c because the recovered toner is circulated and conveyed in the condition that it is pushed into the screw member 3e as a toner conveying member by the toner conveying coil 6b and the recycling belt 12 as a recovered toner conveying member. It is therefore difficult to mix such condensed recycle toner with the carrier in the two-component developer and hence to charge the recycle toner.
  • recycle toner Tr is reused by directly delivering it to the second developer stirring and conveying member 3d arranged with a plurality of fins each formed by notching part of an elliptic plate. Since the condensed recycle toner Tr having relatively big particles is conveyed into the developer without being dispersed finely, the dispersion of the condensed recycle toner Tr into the developer is not enough and hence the charge of the recycle toner Tr is unstable. Therefore, a problem arises that smudges on the background of an image occurs.
  • the recovered toner that has been removed from the photosensitive body 1 is conveyed to the upstream of the toner replenishing portion 4a (new toner replenishing portion) of the toner conveying path that communicates with the developer stirring and conveying path of the second developer stirring and conveying member 3d for stirring and conveying the developer to the developing sleeve 3a developing an electrostatic latent image on the photosensitive body 1.
  • the embodiment features that the recycle toner receiving portion 12d for the recycle toner conveyed by the recycling belt 12 as a recovered toner carrying member is provided in the upper stream of the toner replenishing portion 4a, and the screw member 3e as a toner conveying member and the second developer stirring and conveying member 3d are formed as a body.
  • the recycle toner conveyed by the recycling belt 12 is received from the toner receiving portion 12d that is provided at the upstream side of the toner replenishing portion 4a of the screw member 3e with a spiral fin that is unitarily formed with the second developer stirring and conveying member 3d for stirring and conveying the developer.
  • the first developer stirring and conveying member 3c and the second developer stirring and conveying member 3d are each constructed by an elliptic fin member having a plurality of stirring fins 3i (FIG. 9) each formed by notching part of an elliptic plate and slantingly arranged, such that the developer can be stirred enough to charge the toner while conveying the developer at a relatively low speed. Since developer conveying speed is relatively slow in such an image forming device of the embodiment, it is easy to accumulate the developer near the developer receiving portion (connecting port 11f).
  • the developer accumulated near the developer receiving portion (connecting port 11f) may cause a backflow of the developer into the toner replenishing path.
  • toner to be replenished from the toner replenisher is fed to the second developer stirring and conveying member 3d through the toner conveying means provided separately from the second developer stirring and conveying member 3d, and the developer near the developer receiving portion (connecting port 11f) that communicates with the downstream of the developer circulating path of the first developer stirring and conveying member 3c is relatively heavy with a large amount of carrier due to toner consumption, so that the toner replenished to the second developer stirring and conveying member 3d is dispersed into the developer slowly.
  • the toner concentration in the toner concentration detecting position reaches a reference value very slowly even after a required amount of toner has been replenished, resulting in excess toner replenishment.
  • the present invention therefore features that the toner conveying member for conveying the replenished toner, fed from the toner replenisher to the toner replenishing portion 4a through the toner replenishing port 4c, toward the second developer stirring and conveying member 3d, is constructed by the screw member 3e with a spiral conveying fin 3j capable of conveying the replenished toner at relatively high speed.
  • the screw member 3e is formed unitarily with the second developer stirring and conveying member 3d.
  • the present invention also features that the replenished toner is delivered through the toner replenishing portion 4a provided in the upper stream of the developer receiving portion (connecting port 11f) of the screw member 3e.
  • the replenished toner delivered through the toner replenishing portion 4a provided in the upper stream of the developer receiving portion (connecting port 11f) of the screw member 3e unitarily formed with the second developer stirring and conveying member 3d is then conveyed by the screw member 3e at a speed higher than the developer conveying speed of the second developer stirring and conveying member 3d, thereby conveying the replenished toner quickly to the developer circulating path of the second developer stirring and conveying member 3d.
  • the developer delivered from the first developer stirring and conveying member 3c to the second developer stirring and conveying member 3d through the connecting port 11f can be compulsively pushed by the screw member 3e into the developer circulating path of the second stirring and conveying member 3d, thereby preventing a backflow of the developer into the toner replenishing path due to accumulation of the developer near the developer receiving portion (connecting port 11f) that may cause excess toner replenishment.
  • the toner replenished through the toner replenishing port 4c is delivered through the toner replenishing portion 4a provided upstream of the developer receiving portion (connecting port 11f) of the screw member 3e, so that a distance from the toner replenishing portion 4a to the detecting position of the toner concentration sensor 16, i.e., time after the toner replenishment until the toner concentration is detected can be set shorter. It is also possible to quickly disperse the replenished toner into the developer stirred and conveyed by the second developer stirring and conveying member 3d.
  • the first developer stirring and conveying member 3c and the second developer stirring and conveying member 3d have excellent stirring properties compared to the screw member 3e, which can solve both the problems of stirring and conveying properties.
  • Q/M electrostatic charge
  • the amount of electrostatic charge of silica becomes small at high temperature and humidity, but becomes excessive at low temperature and humidity.
  • 0.3% titanium oxide, in addition to 0.7% silica can be added to increase the environmental stability of the developer.
  • a chevron-like protrusion 11i is formed, as shown in FIGS. 10(a) and 10(b), on the bottom of the connecting port 11f of the developer receiving portion through which the developer circulating path of the first developer stirring and conveying member 3c and the developer circulating path of the second developer stirring and conveying member 3d are connected, i.e., it is formed on the bottom of the developer conveying portion located at the lowermost-stream side of the first developer stirring and conveying member 3c.
  • the developer passing through the connecting port 11f of the developer receiving portion after being conveyed by the first developer stirring and conveying member 3c can be delivered from the upside of the toner conveying path of the screw member 3e (or the developer circulating path of the second developer stirring and conveying member 3d), as shown by hatched arrows in FIGS. 10(a) and 10(b), thereby accelerating the diffusion of the replenished toner into the developer.
  • the developer passing through the connecting port 11f of the developer receiving portion after being conveyed by the first developer stirring and conveying member 3c is relatively heavy with a large amount of carrier due to toner consumption.
  • the toner replenished to the toner conveying path of the screw member 3e through the toner replenishing port 4c is fairly lighter than the developer containing the carrier, and tends to move the upper side of the developer due to various factors such as vibration from the outside.
  • the chevron-like protrusion 11i is formed on the bottom of the connecting port 11f of the developer receiving portion so that the developer passing through the connecting port 11f of the developer receiving portion after being conveyed by the first developer stirring and conveying member 3c will be delivered from the upper side to the toner replenished within the toner conveying path of the screw member 3e. Since the light replenished toner is covered with the heavy developer at the time of delivery, the diffusion of the replenished toner into the developer can be accelerated.
  • the rotating direction of the first developer stirring and conveying member 3c is preferably set to the counterclockwise direction.
  • the developer within the developer circulating path of the first developer stirring and conveying member 3c is delivered from the upside of the toner conveying path of the screw member 3e through the connecting port 11f, as shown by the hatched arrows in FIG. 10(a), while it is scooped up along the protrusion 11i by the vanes 3h provided at the front side (left side in FIG. 5) of the first developer stirring and conveying member 3c. This makes it possible to further accelerate the diffusion of the replenished toner into the developer.
  • the vanes 3h provided at the front side of the first developer stirring and conveying member 3c are inclined in a direction to cause such a conveying force as the developer to be conveyed to the front side by the stirring fins 3i is pushed back to the back side by the rotation of the vanes 3h.
  • Such a conveying force allows changing the developer conveying direction of the first developer stirring and conveying member 3c to a direction substantially perpendicular to the connecting port 11f through which the developer is delivered to the screw member 3e (or second developer stirring and conveying member 3d). This makes it possible to deliver the developer from the upside of the toner conveying path of the screw member 3e more securely by means of the vanes 3h, and hence to accelerate the diffusion of the replenished toner into the developer.
  • vanes 3g provided at the back side of the second developer stirring and conveying member 3d are inclined in a direction to cause such a conveying force as the developer to be conveyed to the back side by the stirring fins 3i is pushed back to the front side by the rotation of the vanes 3g.
  • the rotating direction of the screw 3e (second developer stirring and conveying member 3d) is set in the embodiment to the counterclockwise direction. Therefore, the developer delivered from the first developer stirring and conveying member 3c through the connecting port 11f can be taken quickly into the toner conveying path of the screw member 3e, thus preventing the developer from accumulating near the connecting port 11f more securely.
  • the developer can be delivered to the replenished toner within the toner conveying path of the screw member 3e from the upside of the screw member 3e to the both sides of the rotation axis thereof. This also makes it possible to accelerate the diffusion of the replenished toner into the developer.
  • the toner receiving portion of the screw member 3e for receiving the toner replenished from the toner replenishing portion 4a through the toner replenishing port 4c is put in a position deviated from the rotation axis of the screw member 3e as shown in FIGS. 11(a) and 11(b).
  • Such a position of the toner receiving portion allows an accelerated intake of the replenished toner to the developer and prevents a scattering of the replenished toner.
  • the rotation axis will prevent the replenished toner from falling into the developer, and therefore the replenished toner is taken into the developer slowly.
  • the tangent to a locus of rotation of the conveying fin 3j of the screw member 3e which touches the locus at a point located right below the toner receiving portion, intersects the falling direction of the replenished toner substantially at right angles, the replenished toner particles falling on the conveying fin 3j are reflected back to the side.
  • the replenished toner reflected to the side could be scattered and suspended in the air because the replenished toner is very light as discussed above.
  • the rotation axis does not prevent the replenished toner from falling into the developer and intake of the replenished toner to the developer is accelerated. Further, as shown by the arrows with blanks in FIGS.
  • the rotating direction of the screw member 3e in which the replenished toner is received is the same as the replenishing direction of the toner replenished from the toner replenisher. Such a rotating direction prevents scattering of the replenished toner and makes it possible to further accelerate intake of the replenished toner to the developer.
  • the rotating direction of the screw member 3e in which the replenished toner is received is the same as the replenishing direction of the toner, as shown in FIGS. 11(a) and 11(b)
  • the tangent to the locus of rotation of the conveying fin 3j of the screw member 3e, which touches the locus at a point located right below the toner receiving portion is directed to the same direction as the falling direction of the toner replenished from the toner replenishing port 4c. Therefore, the toner replenished from the toner replenishing port 4c can be taken in quickly to the bottom side of the toner conveying path of the screw member 3e to prevent scattering of the replenished toner. This also makes it possible to accelerate intake of the replenished toner to the developer.
  • the rotating direction of the screw member 3e (second developer stirring and conveying member 3d) is set in the embodiment to the counterclockwise direction in the same manner as in the above embodiment.
  • the toner replenishing port 4c is provided such that the replenished toner receiving portion of the conveying fin 3j is put in a position which is deviated to the left of the rotation axis of the screw member 3e.
  • the toner replenishing port 4c is provided such that the replenished toner receiving portion of the conveying fin 3j is put in a position deviated to the right of the rotation axis of the screw member 3e.
  • the developer receiving portion (connecting port 11f) through which the developer circulating path of the first developer stirring and conveying member 3c and the developer circulating path of the second developer stirring and conveying member 3d communicate with each other, and the toner receiving portion of the toner conveying screw 3e for receiving the toner replenished from the toner replenishing portion 4a are provided at opposite sides with respect to the rotation axis of the toner conveying screw 3e. Therefore, the developer delivered through the connecting port 11f and the toner replenished from the toner replenishing port 4c can be mixed with good balance.
  • the developer delivered through the connecting port 11f and the toner replenished from the toner replenishing port 4c are fed into the toner conveying path of the screw member 3e intermittently with fixed cycles, respectively.
  • the cycles are determined by the rotation cycle of the vanes 3h provided at the front side of the first developer stirring and conveying member 3c, and the rotation cycle of the toner replenishing Mylar 4e (FIG. 4) of the toner replenishing unit 4, respectively.
  • the developer receiving portion for receiving the developer from the connecting port 11f and the toner receiving portion for receiving the replenished toner from the toner replenishing port 4c are provided at the same side, the developer delivered through the connecting port 11f and the toner replenished from the toner replenishing port 4c join at the same timing.
  • the developer and the replenished toner are fed into the toner conveying path of the screw member 3e while forming lumps intermittently with fixed cycles, respectively. It is therefore difficult to mix the developer delivered through the connecting port 11f and the toner replenished from the toner replenishing port 4c with good balance, or takes a long time or requires a long conveying distance to mix them with good balance.
  • the developer receiving portion for receiving the developer from the connecting port 11f and the toner receiving portion for receiving the toner from the toner replenishing port 4c are provided at opposite sides with respect to the rotation axis of the screw member 3e, the developer delivered through the connecting port 11f and the toner replenished from the toner replenishing port 4c join with timing cycles deviated from each other by a half rotation of the screw member 3e.
  • the developer and the replenished toner are dispersed independently in the direction of the toner conveying path while the screw member 3e goes half round, and then the developer and the replenished toner join within the toner conveying path of the screw element 3e.
  • the replenished toner particles are dispersed uniformly before mixing it with the circulated developer, the developer and the replenished toner can be mixed with good balance.
  • the rotating direction of the screw member 3e (second developer stirring and conveying member 3d) is basically set in the embodiment to the counterclockwise direction in the same manner as in the above embodiments.
  • the screw member 3e rotates in the counterclockwise direction, the developer delivered from the first developer stirring and conveying member 3c through the connecting port 11f can be taken into the toner conveying path of the screw member 3e quickly, thereby preventing the developer from accumulating near the connecting port 11f.
  • FIG. 12(a) the rotating direction of the screw member 3e (second developer stirring and conveying member 3d) is basically set in the embodiment to the counterclockwise direction in the same manner as in the above embodiments.
  • the developer can be delivered to the replenished toner within the toner conveying path of the screw member 3e from the upside of the screw member 3e to the both sides of the rotation axis thereof, thereby accelerating the diffusion of the replenished toner into the developer.
  • This embodiment features that (a) the developer fed through the receiving portion or connecting port 11f is delivered to the second developer stirring and conveying member 3d from the upside thereof, (b) the toner fed from the replenishing portions (recycle toner delivering portion 12d and toner replenishing port 4c) is delivered to the second developer stirring and conveying member 3d from the downside thereof, and (c) a toner concentration detecting unit is arranged in a position where the developer and the toner are mixed by the second developer stirring and conveying member 3d.
  • the feature (b) will be first described for convenience sake.
  • the first kind is recycle toner replenishment for replenishing recycle toner from the recycle toner receiving portion 12d by means of the toner recycling belt 12
  • the second kind is new toner replenishment for replenishing new toner from the toner replenishing port 4c.
  • the toner recycling belt 12 In the former replenishment from the recycle toner receiving portion 12d, the toner recycling belt 12 is moved in a direction indicated by the arrows in FIG. 4 and the fins 12c on the toner recycling belt 12 scrapes the recycle toner from the toner recycling belt 12 and feeds it to the downside of the screw member 3e. Therefore, the recycle toner is delivered to the second developer stirring and conveying member 3d from the downside thereof, and moved in the direction of the arrow 26 (FIG. 5) in the condition that it is accumulated on the lower side of the screw member 3e.
  • the toner replenishing port 4c is provided above the screw member 3e in a position deviated from the axis 31 of the screw member 3e, as shown in FIG. 5 or FIG. 15. Therefore toner Tn from the toner replenishing port 4c directly fall on the conveying fin 3j without any affect of the axis 31 and reaches the lower portion.
  • the toner Tn in the lower portion is moved in the direction of the arrow 26 in the condition that it is accumulated on the lower side of the conveying fin 3j.
  • the toner Tn is moved in the condition that it is accumulated on the lower side of the conveying fin 3j as the screw member 3e rotates.
  • FIG. 13 a portion of the lower case 11b between the first developer stirring and conveying member 3c and the second developer stirring and conveying member 3d is formed into a chevron-like shape along which the first developer stirring and conveying member 3c and the second developer stirring and conveying member 3d rotate, respectively.
  • the first developer stirring and conveying member 3c rotates such that the vanes 3h scrapes up developer G from the downside to the upside along the chevron-like shape as shown by arrow 33, and supplies the developer G from the upside of the second developer stirring and conveying member 3d.
  • the developer G is received from the upside.
  • the embodiment teaches that the lower case 11b is formed into the chevron-like shape so that the developer G can be delivered from the upside of the second developer stirring and conveying member 3d and the rotating direction of the first developer stirring and conveying member 3c is set to the direction to scrape up the developer G, such a structure is just an example and other means may be used for supplying the developer G from the upside of the second developer stirring and conveying member 3d.
  • a toner concentration detecting unit is arranged in a position where the developer G and the toner Tn are well mixed by the second developer stirring and conveying member 3d as in FIG. 13.
  • the toner concentration detecting unit may be, for example, a toner concentration detecting sensor for measuring magnetic permeability.
  • the amount of toner to be replenished is controlled on the basis of the detection results from the toner concentration detecting sensor, such control is performed on the assumption that the toner to be detected by the toner concentration detecting sensor is well dispersed into the developer.
  • the toner concentration detecting sensor detects the concentration of toner in a position where the developer and the toner are mixed sufficiently.
  • the features (a) and (b) meet the requirements for good mixing of the developer G and the toner Tn by means of the second developer stirring and conveying member 3d. Therefore, the toner concentration detecting sensor can be put in position on condition that the features (a) and (b) meet the requirements for good mixing of the developer and the toner.
  • Good mixing of the developer G and the toner Tn using the second developer stirring and conveying member 3d denotes that the toner Tn is dispersed into the developer sufficiently.
  • Such sufficient dispersion reduces the rise time for charging the toner to the saturated level with friction between the toner and the carrier, so that toner charged to a fixed level can be obtained in a short time. Therefore, when the toner concentration detecting sensor 16 is arranged in the position where the developer and the toner are well mixed, the amount of toner to be replenished can be controlled adequately according to the image density.
  • a developer used in electronic copying machines called the Imagio DA series (trademark of Ricoh Co., Ltd.) and the image forming device of FIG. 5 were used in this experiment.
  • a toner of 0.6 g/min was replenished to the second developer stirring and conveying member 3d, and added to the developer the initial toner concentration of which is 5% by weight.
  • the conveying speed of the second developer stirring and conveying member 3d was set to 10 mm/min.
  • the developer was sampled at points of 20 mm, 60 mm and 100 mm on the scale having zero point in a position corresponding to the developer receiving portion (connecting port 11f) in FIG. 5. Under such conditions, the full charge time (saturation time) was measured for each sampled developer while stirring the samples with a developer stirring device. The measurement results are shown in FIG. 16.
  • a charge characteristic of toner in the developer sampled at a point of 20 mm is marked with a cross (x)
  • a charge characteristic of toner in the developer sampled at a point of 60 mm is marked with a circle (en)
  • a charge characteristic of toner in the developer sampled at a point of 100 mm is marked with an asterisk (*).
  • the charge characteristic with the crosses rises slowly compared to the running time of the developer stirring device. It is considered that such a slow rise is caused by the nearest position 20 mm distance from the developer receiving portion (connecting port 11f), where the toner has not been dispersed into the developer enough for full charge of the toner with friction between the toner and the carrier.
  • the charge characteristic with the asterisks rises fastest compared to the running time of the developer stirring device, and it is considered that such a rise is caused by the farthest position 100 mm distance from the developer receiving portion (connecting port 11f), where the toner has been dispersed into the developer enough for full charge of the toner with friction between the toner and the carrier.
  • the toner concentration detecting sensor can be put properly in a position of 100 mm on the scale.
  • FIG. 17 a charge characteristic of toner in the developer sampled under the structure and the operation according to the present invention shown in FIG. 13 is marked with a circle, and a charge characteristic of toner in the developer sampled under the structure and the operation of the conventional device shown in FIG. 27 is marked with a cross.
  • the charge characteristic marked with the circles rises to the target value faster than that marked with the crosses.
  • the toner concentration detecting sensor 16 can be arranged anywhere around the second developer stirring and conveying member 3d under the structure and the operation shown in FIG. 13 as long as it is put in the position represented by 100 mm on the scale where the developer and the toner are well mixed.
  • the following experiment 3 was performed on purpose to determine which position around the second developer stirring and conveying member 3d the toner concentration detecting sensor 16 should be arranged.
  • the toner concentration detecting sensor 16 was placed in three positions around the second developer stirring and conveying member 3d, i.e., it was placed right below, in the horizontal direction and off the lower side. Then a comparison was made among the values of toner concentration detected in respective positions based on the point on the scale. The comparison results are shown in FIG. 18.
  • a triangle (ao) represents a detection result when the toner concentration detecting sensor 16 is arranged right below
  • a cross represents a detection result when the toner concentration detecting sensor 16 is arranged in the horizontal direction
  • a circle represents a detection result when the toner concentration detecting sensor 16 is arranged about 45° off the lower side.
  • the position 45° off the lower side denotes a case where the toner concentration detecting sensor 16 is arranged 45 off the lower side of the second developer stirring and conveying member 3d.
  • the toner concentration detecting sensor 16 is arranged 45° off the lower side, accurate detection of the toner concentration can be obtained in a position closer to the receiving portion than the position in which the toner and the developer are well mixed. Such an arrangement makes it possible to replenish toner immediately according to the image density.
  • the gap between the first developer stirring and conveying member 3c and the second developer stirring and conveying member 3d and the developing casing 11 (cases 11a and 11b) or the partition 11e is set to 0.5 to 2 mm so that a leakage of the developer will be prevented. If the gap is too narrow, the developer will be deteriorated while it is rubbed with the first developer stirring and conveying member 3c or the second developer stirring and conveying member 3d and the developing casing 11 or the partition 11e.
  • the gap between the first developer stirring and conveying member 3c and the developing sleeve 3a is set to 1.5 to 3.0 mm on purpose to supply or recover the developer smoothly. If the gap is too wide, the efficiency of supplying or recovering the developer will be lowered. Conversely, if the gap is too narrow, nonuniform supply or deterioration of the developer caused by stress will occur.
  • a scattering prevention member 50 is provided above the second developer stirring and conveying member 3d located farthest away from the developing sleeve 3a in the longitudinal direction of the second developer stirring and conveying member 3d, so that the scattered toner cannot arrive directly at the developing sleeve 3a or the developer around the developer sleeve 3a.
  • the scattering prevention member 50 having a fixed height in the longitudinal direction, is located right above the rotation center of the second developer stirring and conveying member 3d or in the neighborhood.
  • the scattering prevention member 50 is unitarily formed with the lower side of the upper case 11a.
  • Such a member 50 prevents scattered or floating toner particles from passing through between the upper case 11a and the partition 11e.
  • the partition 11e is formed into such a tapered shape as the toner replenishing side is higher and the opposite side is lower than the normal case (t1>t2). Since the neighborhood of the toner replenishing port 4c is a position in which the toner replenished from the toner cycling mechanism and the recycle toner flowing in from the first developer stirring and conveying member 3c join, the flow of toner becomes unstable and scattered or floating toner particles increase. It is therefore necessary to form the partition lie higher in this position in order to prevent the toner from going around or jumping over the partition 11e, i.e., prevent scattering of toner particles. On the other hand, since the height of the partition 11e is low on the other side, the tolerance for accumulation of toner which may be caused by the damage to the conveying fin or stirring fins is high.
  • both the scattering prevention member 50 and the partition 11e so that scattering preventing effects different from each other can be obtained, thereby preventing the toner from scattering or floating precisely while maintaining the normal flow of developer.
  • the shape of the partition 11e is not limited by the tapered one as described above and it may be formed into a step-like shape, as shown in FIG. 21, where the toner replenishing side is high over a given range and the opposite side is low.
  • FIG. 22 shows another embodiment of a scattering prevention member.
  • a scattering prevention member 52 in this embodiment has the same structure as that in the above embodiment, but is different in that the scattering prevention member 52 is provided in a position deviated from the rotation center O of the second developer stirring and conveying member 3d toward the partition 11e (a ⁇ b), and that the upper end of the partition 11e and the lower end of the scattering prevention member 52 are set substantially to the same level.
  • such a structure refracts the flow of air from the second developer stirring and conveying member 3d toward the developing sleeve 3a and could resist the flow of air.
  • the scattering of toner is prevented not only by the collision of the toner with the scattering prevention member 52 but also by resisting the flow of air.
  • the gap between the second developer stirring and conveying member 3d and the upper case 11a is set to 0.3 mm to 2.0 mm (0.5 mm in the embodiment).
  • the shaft diameter of the second developer stirring and conveying member 3d is set to 3 mm to 7 mm (6 mm in the embodiment) by taking into account a deflection of the second developer stirring and conveying member 3d caused by the rotation. Since the gap is set by taking into account the deflection of the second developer stirring and conveying member 3d, the second developer stirring and conveying member 3d does not strike the casing, so that almost all developer can be conveyed through the gap between the second developer stirring and conveying member 3d and the casing.
  • FIG. 23 shows a further embodiment of a scattering prevention member.
  • a scattering prevention member 54 in this embodiment is provided in a position deviated from the rotation center O of the second developer stirring and conveying member 3d toward the partition 11e, with the lower end c of the scattering prevention member 54 set lower than the upper end d of the partition 11e (or the upper end of the partition 11e set higher than the lower end of the scattering prevention member 54). Since such a structure could further resist the flow of air, a high scattering prevention effect can be obtained.
  • FIG. 24 shows a further embodiment of a scattering prevention member.
  • a scattering prevention member 56 in this embodiment is formed into such a tapered shape as the lower end on the toner replenishing side is lower than that on the opposite side (t3>t4).
  • Such a structure improves the tolerance for accumulation of toner caused by the damage to the screw or the like while maintaining its scattering prevention effect.
  • the shape of the scattering prevention member 56 is not limited by the tapered one and it may be formed into a step-like shape, as shown in FIG. 25, where the toner replenishing side is low over a given range and the opposite side is high.
  • the upper end 11k of the partition 11e may be bent toward the second developer stirring and conveying member 3d to prevent the scattered toner from going around the partition 11e.
  • the recovered toner is delivered upstream of the new toner replenishing portion of the toner conveying path that communicates with the developer stirring and conveying path, so that the condensed recovered-toner can be dispersed and charged smoothly, thereby obtaining a clear image without smudges on the image surface.
  • the conveying speed of the toner conveying member is set higher than that of the developer stirring and conveying member, so that the condensed recovered-toner can be dispersed quickly, thereby further improving the image quality.
  • the replenished toner and the delivered developer can be conveyed by the toner conveying member at relatively high speed to prevent a backflow of the developer into the toner replenishing path due to accumulation of toner near the developer receiving portion, thereby obtaining a clear image without smudges on the image surface.
  • the conveying speed of the toner conveying member is set higher than that of the developer stirring and conveying member, so that a backflow of the developer can be prevented more securely, thereby further improving the image quality.
  • a chevron-like protrusion is formed on the bottom of the connecting port as the developer receiving portion so that the developer passing through the developer receiving portion will be delivered from the upside, diffusion of the replenished toner into the developer can be accelerated.
  • the toner receiving portion of the toner conveying member is provided in a position deviated from the rotation axis of the toner conveying member, so that intake of the replenished toner to the developer can be accelerated because the rotation axis does not prevent falling of the replenished toner.
  • the replenished toner receiving portion of the toner conveying member is rotated in the same direction as the toner is replenished, so that the tangent to the locus of rotation of the conveying member, which touches the locus at a point located right below the toner receiving portion, is directed to the same direction as the falling direction of the replenished toner, so that intake of the replenished toner to the developer can be accelerated more, thereby preventing scattering of the replenished toner.
  • the developer receiving portion and the toner receiving portion of the toner conveying member are formed at opposite sides with respect to the rotation axis of the toner conveying member, the delivered developer and the replenished toner join with timing cycles deviated from each other by half rotation of the toner conveying member after the developer and the replenished toner are dispersed independently in the direction of the toner conveying path while the conveying member goes half round, so that the developer and the replenished toner can be mixed with good balance.
  • a toner concentration detecting unit is put in a position in which the developer and the toner are stirred and mixed well, so that the toner replenishment can be controlled accurately.
  • the developer can be supplied to the second developer stirring and conveying member from the upside thereof.
  • the same detection results when the toner and the developer has actually been mixed well can be obtained at a point prior to the point at which mixing of the toner and the developer actually becomes good balance.
  • the scattering prevention member is provided above one of the developer stirring and conveying members located farthest away from the developer carrier and along the axial direction of the developer stirring and conveying member so that toner particles scattered or floating when replenishing the toner cannot arrive directly at the developer carrier or the developer around the developer carrier without being charged or with weak electrification, and this makes it possible to effectively prevent the scattered or floating toner particles from going around, thereby preventing smudges on the image surface or stains in the device.
  • the scattering prevention member is positioned on the side of the partition with respect to the rotation axis of the developer stirring and conveying member that is the farthest one from the developer carrier, and such a structure could resist the flow of air from the developer stirring and conveying member to the developer carrier, so that the movement of the floating toner particles can be protected, thereby preventing scattering of toner or smudges on the image surface.
  • the upper end of the partition is located in a position higher than the lower end of the scattering prevention member and such a structure could further resist the flow of air, thereby preventing scattering of toner or smudges on the image surface more effectively.
  • the upper end of the partition is such that the toner replenishing side is higher than the other side, and this makes it possible to prevent the toner from going around or jumping over the partition.
  • Such a structure also makes it possible to improve the tolerance for (security against) accumulation of toner caused by the damage to the screw or the like.
  • the lower end of the scattering prevention member is such that the toner replenishing side is lower than the other side.
  • such a structure makes it possible not only to prevent the toner from going around or jumping over the partition, but also to improve the tolerance for (security against) accumulation of toner caused by the damage to the screw or the like.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Sustainable Development (AREA)
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US08/862,695 1996-05-29 1997-05-23 Image forming device with improved mixing of circulated developer with replensihed toner Expired - Lifetime US5887224A (en)

Applications Claiming Priority (10)

Application Number Priority Date Filing Date Title
JP13458496 1996-05-29
JP8-134548 1996-05-29
JP13847296 1996-05-31
JP13847396 1996-05-31
JP8-138472 1996-05-31
JP8-138473 1996-05-31
JP16181296 1996-06-21
JP8-161812 1996-06-21
JP9088479A JPH1069155A (ja) 1996-05-29 1997-04-07 画像形成装置
JP9-088479 1997-04-07

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US7486916B2 (en) 2003-03-05 2009-02-03 Ricoh Company, Ltd. Method and apparatus of image forming and process cartridge included in the apparatus
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